Cabin air compressor support bracket

ABSTRACT

A support bracket for a cabin air compressor (CAC) assembly includes a CAC mounting portion formed substantially orthogonal to an access portion and a structural support portion. A cross-support bracket mounting portion is formed at an angle relative to the access portion. An upper lug portion is formed at an angle relative to the access portion and substantially orthogonal to an upper lug. A plurality of CAC mounting holes is formed in the CAC mounting portion. A plurality of lower slotted holes and an upper slotted hole are formed in the cross-support bracket mounting portion. A ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.

BACKGROUND OF THE INVENTION

The subject matter disclosed herein relates to aircraft environmental control. More specifically, the subject disclosure relates to a support bracket of a cabin air compressor for an aircraft environmental control system.

Environmental control systems (ECSs) are utilized on various types of aircraft for several purposes, such as in cooling systems for the aircraft. For example, components of an ECS may be utilized to remove heat from various aircraft lubrication and electrical systems and/or used to condition aircraft cabin air. A cabin air conditioning and temperature control system (CACTCS) is an example of an aircraft ECS that includes air cycle packs supplied with pressurized outside (fresh) air from electric motor-driven cabin air compressors (CACs) which condition fresh air for cabin heating and cooling. The CACTCS provides flow control for modulation of cooling pack air flow, recirculation fans to circulate cabin air, and associated valves and sensors used for system control.

The CACTCS may also include a trim air system to provide individual cabin zone temperature control. This includes trim temperature control valves, trim duct heaters and associated sensors. As one example, a CACTCS may provide control of six baseline passenger zones and a flight deck zone. Additional zones, such as a forward cargo zone, a crew zone and/or an attendant zone may be controlled by other ECSs. Recirculation fans may also be provided for additional air flow to the passenger cabin and to ensure that flow at an air distribution nozzle remains constant.

Various elements of aircraft ECSs can experience harsh environments including a wide range of temperatures, pressures, and vibrations. Elements of aircraft ECSs must also fit within a compact space and minimize weight while providing adequate strength to handle typical and peak stresses over the anticipated life of the elements.

BRIEF DESCRIPTION OF THE INVENTION

According to one aspect, a support bracket for a cabin air compressor assembly is provided. The support bracket includes a cabin air compressor mounting portion formed substantially orthogonal to an access portion and a structural support portion. A cross-support bracket mounting portion is formed at an angle relative to the access portion. An upper lug portion is formed at an angle relative to the access portion and substantially orthogonal to an upper lug. A plurality of cabin air compressor mounting holes is formed in the cabin air compressor mounting portion. The cabin air compressor mounting holes are distributed in an arc configuration along a cabin air compressor mounting hole circle radius. A plurality of lower slotted holes and an upper slotted hole are formed in the cross-support bracket mounting portion. A ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.

According to another aspect, a cabin air compressor support assembly is provided. The cabin air compressor support assembly includes a left-hand cabin air compressor support bracket coupled to a cabin air compressor assembly, a cross-support bracket, and an upper three-way mount. The cabin air compressor support assembly also includes a right-hand cabin air compressor support bracket coupled to the cabin air compressor assembly, the cross-support bracket, and a lower three-way mount. The right-hand cabin air compressor support bracket includes a cabin air compressor mounting portion formed substantially orthogonal to an access portion and a structural support portion. A cross-support bracket mounting portion is formed at an angle relative to the access portion. An upper lug portion is formed at an angle relative to the access portion and substantially orthogonal to an upper lug. A plurality of cabin air compressor mounting holes is formed in the cabin air compressor mounting portion. The cabin air compressor mounting holes are distributed in an arc configuration along a cabin air compressor mounting hole circle radius. A plurality of lower slotted holes and an upper slotted hole are formed in the cross-support bracket mounting portion. A ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.

According to a further aspect, a method of installing a support bracket in a cabin air conditioning and temperature control system is provided. An upper lug of the support bracket is coupled to a mount of the cabin air conditioning and temperature control system. A cabin air compressor mounting portion of the support bracket is coupled to a cabin air compressor assembly of the cabin air conditioning and temperature control system. A cross-support bracket mounting portion of the support bracket is coupled to a cross-support bracket. The support bracket includes the cabin air compressor mounting portion formed substantially orthogonal to an access portion and a structural support portion. The cross-support bracket mounting portion is formed at an angle relative to the access portion. An upper lug portion is formed at an angle relative to the access portion and substantially orthogonal to the upper lug. A plurality of cabin air compressor mounting holes is formed in the cabin air compressor mounting portion. The cabin air compressor mounting holes are distributed in an arc configuration along a cabin air compressor mounting hole circle radius. A plurality of lower slotted holes and an upper slotted hole are formed in the cross-support bracket mounting portion. A ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a partial perspective view of a cabin air conditioning and temperature control system;

FIG. 2 is another partial perspective view of the cabin air conditioning and temperature control system of FIG. 1;

FIG. 3 is a perspective view of a cabin air compressor support bracket;

FIG. 4 is another view of the cabin air compressor support bracket of FIG. 3;

FIG. 5 is a detailed view of a cabin air compressor mounting portion of the cabin air compressor support bracket of FIG. 3;

FIG. 6 is another view of the cabin air compressor support bracket of FIG. 3; and

FIG. 7 is detailed view of a portion of a cross-support bracket mounting portion of the cabin air compressor support bracket of FIG. 3.

DETAILED DESCRIPTION OF THE INVENTION

Shown in FIGS. 1 and 2 are partial perspective views of a cabin air conditioning and temperature control system (CACTCS) 100. The CACTCS 100 includes an upper three-way mount 102 with coupling points 104 a and 104 b. The upper three-way mount 102 may also be coupled to one or more vibration isolators 106. The coupling point 104 a is coupled to a first cabin air compressor (CAC) support bracket 108. The first CAC support bracket 108 is coupled to a CAC 110 and a cross-support bracket 112. The cross-support bracket 112 is coupled to a second CAC support bracket 114. The second CAC support bracket 114 is coupled to the CAC 110 and a coupling point 116 a of a lower three-way mount 118 as best viewed in FIG. 2. Similar to the upper three-way mount 102, the lower three-way mount 118 includes a pair of coupling points 116 a and 116 b. The first CAC support bracket 108, the cross-support bracket 112, and the second CAC support bracket 114 collectively form a CAC support assembly 120. The first CAC support bracket 108 may also be referred to as a left-hand CAC support bracket, and the second CAC support bracket 114 may be referred to as a right-hand CAC support bracket. The coupling points 104 b and 116 b may be used to support a second CAC (not depicted), where the CAC 110 may be referred to as an outer CAC and the second CAC (not depicted) may be referred to as an inner CAC. The three-way mounts 102 and 118 limit CAC movement in three directions (X-Y-Z).

FIG. 3 is a perspective view of the second CAC support bracket 114 of FIGS. 1 and 2. The second CAC support bracket 114 includes a CAC mounting portion 350, an access portion 352, a cross-support bracket mounting portion 354, an upper lug portion 356, and an upper lug 358. The second CAC support bracket 114 also includes a structural support portion 360 as best viewed in FIG. 4. The CAC mounting portion 350 includes a first CAC mounting hole 362, a second CAC mounting hole 364, and a third CAC mounting hole 366 distributed in an arc configuration. The CAC mounting holes 362 and 366 are also referred to as the outermost CAC mounting holes 362 and 366 relative to the CAC mounting hole 364. The CAC mounting portion 350 also includes a substantially triangular shaped lightening region 368. The access portion 352 includes a substantially circular access aperture 370. The cross-support bracket mounting portion 354 includes three slotted holes 372, 374, and 376, which are also referred to as lower slotted holes 372,374 and upper slotted hole 376. The upper lug 358 includes a coupling hole 378.

The CAC mounting portion 350 is formed substantially orthogonal to the access portion 352 and the structural support portion 360 of FIG. 4. The cross-support bracket mounting portion 354 is formed at an angle relative to the access portion 352, and the upper lug portion 356 is formed at an angle relative to the access portion 352. The upper lug 358 is formed substantially orthogonal to the upper lug portion 356.

The CAC mounting holes 362-366 are configured to mate the second CAC support bracket 114 to the CAC 110 of FIG. 1. The slotted holes 372-376 are configured to mate the second CAC support bracket 114 with the cross-support bracket 112 of FIG. 1. The coupling hole 378 is configured to mate the second CAC support bracket 114 with the coupling point 116 a of FIG. 1. Various fastener apparatuses (not depicted), such as bolts, can be used to perform mating of various components.

FIG. 4 is another view of the CAC support bracket 114 depicting the structural support portion 360 and side views of the CAC mounting portion 350, the access portion 352, the cross-support bracket mounting portion 354, the upper lug portion 356, and the upper lug 358. A datum A defines a reference on the CAC mounting portion 350, and centerline B (CLB) defines a centerline through CAC mounting hole 362. Datum A is defined on a CAC side 375 of the CAC mounting portion 350 that is in closer proximity to the CAC 110 upon coupling the CAC support bracket 114 to the CAC 110. A first angle (θ1) of about 28 degrees is defined between CLB and the cross-support bracket mounting portion 354 at a length L1 of about 9.95 inches (25.273 cm) from CLB at datum A to the cross-support bracket mounting portion 354. A second angle (θ2) of about 50 degrees is defined between CLB and the upper lug portion 356 at a length L2 of about 12.115 inches (30.772 cm) from CLB at datum A to the upper lug portion 356. The second angle θ2 is also defined between CLB and a central axis 377 of the coupling hole 378 at a length L3 of about 13.608 inches (34.564 cm) from CLB at datum A to the central axis 377 of the coupling hole 378. A length L4 of about 5.324 inches (13.523 cm) is defined from a projection 379 normal to CLB at datum A to the upper lug 358. A length L5 of about 6.755 inches (17.158 cm) is defined from the projection 379 normal to CLB at datum A to an upper end 380 that is substantially orthogonal to the upper lug portion 356. The upper lug 358 has a thickness T1 of about 0.815 inches (2.070 cm).

FIG. 5 is a detailed view of the CAC mounting portion 350 of the CAC support bracket 114. The CAC mounting holes 362, 364, and 366, each having a diameter D1 of about 0.406 inches (1.031 cm), are distributed in an arc configuration along a CAC mounting hole circle radius R1 of about 8.375 inches (21.273 cm) positioned between a curved edge 382 of the CAC mounting portion 350 and the substantially triangular shaped lightening region 368. A length L6 of about 1.125 inches (2.858 cm) separates the curved edge 382 of the CAC mounting portion 350 and the substantially triangular shaped lightening region 368. Relative to CLB, CAC mounting hole 364 is offset by an angle θ3 of about 25 degrees and CAC mounting hole 366 is offset by an angle θ4 of about 50 degrees at the CAC mounting hole circle radius R1. A first angled edge 384 proximate the CAC mounting hole 366 is offset by an angle θ5 of about 41.61 degrees relative to CLB. The first angled edge 384 is formed between the curved edge 382 and an outer edge 386 of the CAC mounting portion 350. A length L7 of about 8.325 inches (21.146 cm) is defined between the outer edge 386 and CLB. The outer edge 386 is substantially normal to a lower edge 388 of the CAC mounting portion 350. A length L8 of about 2.225 inches (5.652 cm) is defined between the lower edge 388 and CLB.

A second angled edge 390 is formed between the lower edge 388 and the curved edge 382 of the CAC mounting portion 350 at an angle θ6 of about 19.6 degrees relative to the lower edge 388. A length L9 of about 1.24 inches (3.150 cm) separates the second angled edge 390 of the CAC mounting portion 350 and the substantially triangular shaped lightening region 368. An edge 392 of the substantially triangular shaped lightening region 368 is positioned at a length L10 of about 6 inches (15.24 cm), where the edge 392 is substantially parallel to the outer edge 386.

FIG. 6 is another view of the CAC support bracket 114 according to an embodiment as taken at section line 6 of FIG. 4. A reference point 400 is defined as the intersection of CLB and datum A of FIG. 4 based on the orientation of the CAC support bracket 114 in FIG. 6. The reference point 400 may be located based on a projection 402 of an angled edge 404 of the cross-support bracket mounting portion 354. A reference line 406 is defined at a length L11 of about 1.915 inches (4.864 cm) from the projection 402, where the reference line 406 extends to the reference point 400 and forms an angle θ7 of about 13 degrees relative to CLB. The lower slotted holes 372 and 374 are offset by a length L12 of about 4.423 inches (11.234 cm) from the reference point 400. The upper slotted hole 376 is longitudinally offset by a length L13 of about 1.375 inches (3.493 cm) from the lower slotted holes 372 and 374 relative to the center of each of the slotted holes 372-376. Each of the slotted holes 372-376 has a length L14 of about 0.8 inches (2.032 cm) and a width W1 of about 0.413 inches (1.049 cm). The slotted hole 374 is offset by a length L15 of about 1.025 inches (2.604 cm) from CLB. The slotted hole 372 is offset by a length L16 of about 0.898 inches (2.281 cm) from the slotted hole 374. The slotted hole 376 is laterally offset by a length L17 of about 0.513 inches (1.303 cm) from the slotted hole 372 between respective centers of the slotted holes 376 and 372. The slotted hole 376 may also be laterally offset by length L17 from the slotted hole 374 between respective centers of the slotted holes 376 and 374.

The view of the CAC support bracket 114 in FIG. 6 also depicts a bushing 408 installed in the coupling hole 378 of the upper lug 358. The bushing 408 provides a bearing portion for a fastener (not depicted) to engage with the coupling point 116 a of FIG. 1.

FIG. 7 is detailed view of a portion of the cross-support bracket mounting portion 354 of the CAC support bracket 114 according to an embodiment as taken at section line 7 of FIG. 4. Substantially smooth regions 410 are defined relative to the slotted holes 372, 374, and 376. For example, the substantially smooth regions 410 may be free of cusps associated with tooling used to manufacture the CAC support bracket 114. The substantially smooth regions 410 may be defined as extending a minimum length L18 of about 1.1 inches (2.794 cm) below the slotted holes 372 and 374, and a minimum length L19 of about 0.975 inches (2.477 cm) above the slotted hole 376.

A number of ratios are defined between elements of the CAC support bracket 114 as depicted in FIGS. 1-7. In an embodiment, a ratio of the length L13 of longitudinal offset between the lower slotted holes 372, 374 and the upper slotted hole 376 to the length L17 of lateral offset between the lower slotted hole 372 and the upper slotted hole 376 is between 2.47 and 2.91. A ratio of the length L13 between the lower slotted holes 372, 374 and the upper slotted hole 376 to the minimum length L19 above the slotted hole 376 of the substantially smooth regions 410 is at most 1.405:0.975. A ratio of the length L7 defined between the outer edge 386 and CLB to the diameter D1 of the CAC mounting holes 362, 364, and 366 is between 19.93 and 21.10. A ratio of the angle θ5 defined between CLB and the first angled edge 384 relative to the angle θ6 defined between the lower edge 388 and the second angled edge 390 is between 2.04 and 2.21. A ratio of the length L3 from CLB at datum A to the central axis 377 of the coupling hole 378 to the length L2 from CLB at datum A to the upper lug portion 356 is between 1.120 and 1.127. A ratio of the length L5 defined from the projection 379 normal to CLB at datum A to the upper end 380 to the length L4 defined from the projection 379 normal to CLB at datum A to the upper lug portion 356 is between 1.256 and 1.282.

A process of installing the CAC support bracket 114 in the cabin air conditioning and temperature control system 100 is described in reference to FIGS. 1-7. The upper lug 358 of the CAC support bracket 114 is coupled to the coupling point 116 a of the lower three-way mount 118. The CAC mounting portion 350 of the CAC support bracket 114 is coupled to the CAC 110. The cross-support bracket mounting portion 354 of the CAC support bracket 114 is coupled to the cross-support bracket 112. The cross-support bracket 112 is also coupled to the CAC support bracket 108. The CAC support bracket 108 is coupled to the CAC 110 and to the coupling point 104 a of the upper three-way mount 102. As previously described, the CAC support bracket 114 includes the CAC mounting portion 350 formed substantially orthogonal to the access portion 352 and the structural support portion 360, as well as the cross-support bracket mounting portion 354 formed at an angle (e.g., angle θ1) relative to the access portion 352. The upper lug portion 356 is formed at an angle (e.g., angle θ2) relative to the access portion 352 and substantially orthogonal to the upper lug 358. A ratio of the length L13 of longitudinal offset defined between the lower slotted holes 372, 374 and the upper slotted hole 376 to the length L17 of lateral offset between a center of at least one of the lower slotted holes 372, 374 and the upper slotted hole 376 is between 2.47 and 2.91.

While the invention has been described in detail in connection with only a limited number of embodiments, it should be readily understood that the invention is not limited to such disclosed embodiments. Rather, the invention can be modified to incorporate any number of variations, alterations, substitutions or equivalent arrangements not heretofore described, but which are commensurate with the spirit and scope of the invention. Additionally, while various embodiments of the invention have been described, it is to be understood that aspects of the invention may include only some of the described embodiments. Accordingly, the invention is not to be seen as limited by the foregoing description, but is only limited by the scope of the appended claims. 

The invention claimed is:
 1. A support bracket for a cabin air compressor assembly, the support bracket comprising: a cabin air compressor mounting portion formed substantially orthogonal to an access portion and a structural support portion; a cross-support bracket mounting portion formed at an angle relative to the access portion; an upper lug portion formed at an angle relative to the access portion and substantially orthogonal to an upper lug; a plurality of cabin air compressor mounting holes in the cabin air compressor mounting portion, the cabin air compressor mounting holes distributed in an arc configuration along a cabin air compressor mounting hole circle radius; and a plurality of lower slotted holes and an upper slotted hole in the cross-support bracket mounting portion, wherein a ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.
 2. The support bracket of claim 1, wherein substantially smooth regions are formed above the upper slotted hole in the cross-support bracket mounting portion and below the lower slotted holes in the cross-support bracket mounting portion, and a ratio of the length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length above the upper slotted hole of the substantially smooth regions is at most 1.405:0.975.
 3. The support bracket of claim 1, wherein the cabin air compressor mounting holes further comprise a first cabin air compressor mounting hole, a second cabin air compressor mounting hole, and a third cabin air compressor mounting hole, and the cabin air compressor mounting portion further comprises a curved edge proximate the cabin air compressor mounting holes, a first angled edge proximate the third cabin air compressor mounting hole and formed between the curved edge and an outer edge of the cabin air compressor mounting portion, a lower edge substantially normal to the outer edge, a second angled edge proximate to the first cabin air compressor mounting hole and formed between the lower edge and the curved edge, a centerline defined through the first cabin air compressor mounting hole, and a datum defined on a cabin air compressor side of the cabin air compressor mounting portion.
 4. The support bracket of claim 3, wherein a ratio of a length defined between the outer edge and the centerline to a diameter of each of the cabin air compressor mounting holes is between 19.93 and 21.10.
 5. The support bracket of claim 3, wherein a ratio of an angle defined between the centerline and the first angled edge relative to an angle defined between the lower edge and the second angled edge is between 2.04 and 2.21.
 6. The support bracket of claim 3, wherein a ratio of a length from the centerline at the datum to a central axis of a coupling hole of the upper lug relative to a length from the centerline at the datum to the upper lug portion is between 1.120 and 1.127.
 7. The support bracket of claim 3, wherein a ratio of a length defined from a projection normal to the centerline at the datum to an upper end that is substantially orthogonal to the upper lug portion relative to the centerline at the datum to the upper lug portion is between 1.256 and 1.282.
 8. A cabin air compressor support assembly comprising: a left-hand cabin air compressor support bracket coupled to a cabin air compressor assembly, a cross-support bracket, and an upper three-way mount; and a right-hand cabin air compressor support bracket coupled to the cabin air compressor assembly, the cross-support bracket, and a lower three-way mount, the right-hand cabin air compressor support bracket comprising: a cabin air compressor mounting portion formed substantially orthogonal to an access portion and a structural support portion; a cross-support bracket mounting portion formed at an angle relative to the access portion; an upper lug portion formed at an angle relative to the access portion and substantially orthogonal to an upper lug; a plurality of cabin air compressor mounting holes in the cabin air compressor mounting portion, the cabin air compressor mounting holes distributed in an arc configuration along a cabin air compressor mounting hole circle radius; and a plurality of lower slotted holes and an upper slotted hole in the cross-support bracket mounting portion, wherein a ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.
 9. The cabin air compressor support assembly of claim 8, wherein substantially smooth regions are formed above the upper slotted hole in the cross-support bracket mounting portion and below the lower slotted holes in the cross-support bracket mounting portion, and a ratio of the length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length above the upper slotted hole of the substantially smooth regions is at most 1.405:0.975.
 10. The cabin air compressor support assembly of claim 8, wherein the cabin air compressor mounting holes further comprise a first cabin air compressor mounting hole, a second cabin air compressor mounting hole, and a third cabin air compressor mounting hole, and the cabin air compressor mounting portion further comprises a curved edge proximate the cabin air compressor mounting holes, a first angled edge proximate the third cabin air compressor mounting hole and formed between the curved edge and an outer edge of the cabin air compressor mounting portion, a lower edge substantially normal to the outer edge, a second angled edge proximate to the first cabin air compressor mounting hole and formed between the lower edge and the curved edge, a centerline defined through the first cabin air compressor mounting hole, and a datum defined on a cabin air compressor side of the cabin air compressor mounting portion.
 11. The cabin air compressor support assembly of claim 10, wherein a ratio of a length defined between the outer edge and the centerline to a diameter of each of the cabin air compressor mounting holes is between 19.93 and 21.10.
 12. The cabin air compressor support assembly of claim 10, wherein a ratio of an angle defined between the centerline and the first angled edge relative to an angle defined between the lower edge and the second angled edge is between 2.04 and 2.21.
 13. The cabin air compressor support assembly of claim 10, wherein a ratio of a length from the centerline at the datum to a central axis of a coupling hole of the upper lug relative to a length from the centerline at the datum to the upper lug portion is between 1.120 and 1.127.
 14. The cabin air compressor support assembly of claim 10, wherein a ratio of a length defined from a projection normal to the centerline at the datum to an upper end that is substantially orthogonal to the upper lug portion relative to the centerline at the datum to the upper lug portion is between 1.256 and 1.282.
 15. A method of installing a support bracket in a cabin air conditioning and temperature control system comprising: coupling an upper lug of the support bracket to a mount of the cabin air conditioning and temperature control system; coupling a cabin air compressor mounting portion of the support bracket to a cabin air compressor assembly of the cabin air conditioning and temperature control system; and coupling a cross-support bracket mounting portion of the support bracket to a cross-support bracket, the support bracket comprising: the cabin air compressor mounting portion formed substantially orthogonal to an access portion and a structural support portion; the cross-support bracket mounting portion formed at an angle relative to the access portion; an upper lug portion formed at an angle relative to the access portion and substantially orthogonal to the upper lug; a plurality of cabin air compressor mounting holes in the cabin air compressor mounting portion, the cabin air compressor mounting holes distributed in an arc configuration along a cabin air compressor mounting hole circle radius; and a plurality of lower slotted holes and an upper slotted hole in the cross-support bracket mounting portion, wherein a ratio of a length of longitudinal offset defined between the lower slotted holes and the upper slotted hole to a length of lateral offset between a center of at least one of the lower slotted holes and the upper slotted hole is between 2.47 and 2.91.
 16. The method of claim 15, wherein the support bracket is a right-hand support bracket, and the method further comprises: coupling the cross-support bracket to a second support bracket that is coupled to the cabin air compressor assembly and a second mount of the cabin air conditioning and temperature control system.
 17. The method of claim 15, wherein the cabin air compressor mounting holes further comprise a first cabin air compressor mounting hole, a second cabin air compressor mounting hole, and a third cabin air compressor mounting hole, and the cabin air compressor mounting portion further comprises a curved edge proximate the cabin air compressor mounting holes, a first angled edge proximate the third cabin air compressor mounting hole and formed between the curved edge and an outer edge of the cabin air compressor mounting portion, a lower edge substantially normal to the outer edge, a second angled edge proximate to the first cabin air compressor mounting hole and formed between the lower edge and the curved edge, a centerline defined through the first cabin air compressor mounting hole, and a datum defined on a cabin air compressor side of the cabin air compressor mounting portion.
 18. The method of claim 17, wherein a ratio of a length defined between the outer edge and the centerline to a diameter of each of the cabin air compressor mounting holes is between 19.93 and 21.10.
 19. The method of claim 17, wherein a ratio of an angle defined between the centerline and the first angled edge relative to an angle defined between the lower edge and the second angled edge is between 2.04 and 2.21.
 20. The method of claim 17, wherein a ratio of a length from the centerline at the datum to a central axis of a coupling hole of the upper lug relative to a length from the centerline at the datum to the upper lug portion is between 1.120 and 1.127, and a ratio of a length defined from a projection normal to the centerline at the datum to an upper end that is substantially orthogonal to the upper lug portion relative to the centerline at the datum to the upper lug portion is between 1.256 and 1.282. 